SU742607A1 - Dust-suppression apparatus - Google Patents

Description

The invention relates to the mining industry and can be used to clean dusty air streams.

There is a known ejector for ventilating 5 mine workings, consisting of a diffuser, a composite receiving neck, a perforated ring forming annular slots with a receiving neck, the gaps of which are regulated by means of gaskets (1].

The known device does not provide dust suppression.

The closest technical solution to this invention is15 an ejector consisting of a diffuser, a composite receiving neck, a perforated ring, forming annular slots with a receiving neck with gaps, adjustable by means of 20 gaskets, a spiral screw partition installed inside the diffuser, a dust exhaust pipe, communicated with a diffuser and a sprinkler installed in front of the receiving neck [2]. 25

However, the known device does not provide sufficient dust suppression efficiency.

The aim of the present invention is to increase the efficiency of dust-suppression 30 by ensuring that the source of dust formation is isolated from the environment by a cone-shaped air-water flow.

This is achieved by the fact that the dust suppression device is equipped with a hollow truncated cone, an annular nozzle and an additional ejector consisting of a diffuser, a receiving neck, a perforated ring, forming annular slots with a receiving neck with gaps, adjustable by means of gaskets, rigidly fixed to the outside of the hollow truncated cone ca and installed with an annular gap between the walls of the specified cone and the inner surface of its diffuser so that its diffuser is directed towards widening of the cone, while the annular nozzle is installed with a gap on the cone in front of the receiving neck of the additional ejector so that its exit slit is directed inside the annular gap between the walls of the cone and the inner surface of the diffuser of the additional ejector, and the main ejector is rigidly fixed inside the truncated cone and installed in such a way that its receiving neck is directed towards the expansion of the truncated cone.

Figure 1 shows a device for suppressing dust; figure 2 - scheme of the device.

The dust suppressor consists of a hollow truncated cone

1, from the outside, an additional ejector 2 is rigidly fixed to it, consisting of a diffuser 3, a receiving neck 4, a perforated ring

5, forming annular slots b with the receiving neck 4, the gaps of which are regulated by means of gaskets 7. Compressed air is supplied through a valve 8, a hose 9 into the annular chamber 10, from where it flows out through the slots 6.

The ejector 2 is fixed on the cone 1 with an annular gap 11 between the walls of the cone 1 and the diffuser 3 so that the expanding part of the diffuser is directed towards the expansion of the cone l.Ha to the cone 1 in front of the inlet 4 with the gap is fixed, an annular nozzle 12 is connected through annular channel 13, hose .14, valve 15 with a water line. The annular nozzle 12 with its outlet slit 16 is directed inside the annular gap 11 between the walls of the diffuser 3 and the cone 1.

Inside the truncated cone 1, an ejector 17 consisting of is rigidly fixed. a diffuser 18, a receiving neck 19, a perforated ring 20, forming annular slots 21 with a receiving neck 19, the gaps of which are regulated by gaskets 22. The compressed air is supplied to the ejector 17 through a valve 23, a hose 24 into the annular chamber 25, from where it flows out through the slot 21.

The diffuser 18 of the ejector 17 is equipped with a spiral helical partition 26 and has a diffuser in the side wall. 18 at the outlet end, an opening with a nozzle 27 for removing a mixture of water and dust.

Figure 2 shows the operation of the device 28 for suppressing dust, Using an additional ejector 2 form an air-water flow 29 cone-shaped, which is used to enclose and isolate the source of dust formation from the environment, and using the ejector 17 from the source of dust generation 30 produce suction dusty air 31 and dust separation from it.

A device for suppressing dust works as follows.

Compressed air is supplied at the beginning through the valve 8 to the hose 9 into the annular chamber 10 of the additional ejector

2, from where it expires at a supersonic speed through annular slots

6, creating a vacuum on the inner surface of the intake neck 4, sucking in air from the atmosphere, which then enters the annular gap 11 between the walls of the cone 1 and the diffuser Z. In the annular gap 11 using the annular nozzle 12 through the outlet slit 16 from the annular channel. 13 through the hose 14 and the valve 15, water is supplied at a certain speed, depending on the pressure in the line,

In the annular gap 11, an air-water mixture is formed, which moves at high speed to exit the diffuser 3. Having some inertia, the air-water stream 29 moves by inertia towards the dust source 30 in the form of a xenus, preventing the dust distribution. Then, the ejector 17 is turned on. The valve 23 is turned on through the hose 24 and air is supplied to the annular chamber 25 from where it flows out through the slot 21, forming a vacuum in the area of the inlet neck 19 and sucking in dusty air 31 from the dust collection source 30 inside the cone of the air-water stock 29. Due to Oncoming movement of two streams inside the cone of the air-water stream 29, intensive dust wetting occurs with water. The moistened dust together with air enters the diffuser 18 of the ejector 17. Passing along the spiral channel of the diffuser 18, the dusty air swirls. Solid dust particles in the air under the action of centrifugal forces are pressed against the walls of the diffuser 18, water droplets also contribute to this, moving along the spiral screw channel of the diffuser. On the walls of the diffuser, a water flow is formed, mixed with dust, which moves to the hole with the nozzle 27. Through the nozzle 27, the moistened dust is directed to the designated area.

Using taps 8, 15, 23 msfs, to regulate the flow rates and the amount of water for successful dust suppression process depending on the intensity of dust formation.

Claims (1)

directed toward the expansion of the truncated cone. FIG. 1 shows a device for PNP dust suppression; figure 2 - schemes of operation of the device. The dust suppression device consists of a hollow truncated cone 1, from the outside it is rigidly fixed with an additional ejector 2 consisting of a diffuser 3, a receiving throat 4, a perforated ring 5 forming with the receiving throttle 4 annular slits b, the gaps of which are adjusted by means of gaskets 7. The compressed air supply is produced through the valve 8, the hose 9 into the annular chamber 10, from where it expires through the slots 6, the Ejector 2 is fixed on the cone 1 with the annular Elm gap 11 between the walls of the cone 1 and the diffuser 3 so that it expandsast.diffuzora has been directed towards the expansion cone l.Ha cone 1 before reception hydrochloric neck 4 with a gap zakrep-, Leno annular nozzle 12 connected through an annular passage 13, the hose 14, valve 15 with the water manifold. The annular nozzle 12 with its exit slit 16 is directed inside the annular gap 11 between the walls of the diffuser 3 and the cone 1. Inside the truncated cone 1 the ejector 17 is rigidly fixed, consisting of the diffuser 18, the receiving neck 19 of the perforated ring 20, forming it with the receiving neck 19 ring. slots 21, the gaps of which are regulated by means of gaskets 22. Compressed air is fed into ejector 17 through valve 23, hose 24 into annular chamber 25, from where it flows through slot 21. Diffuser 18 of ejector 17 is equipped with a spiral screw partition 26 and has in the side wall of the diffuser 18 at the outlet end there is an opening with a nozzle 27 for removing the mixture of water and dust. Figure 2 shows a diagram of the operation of the device 28 for suppressing dust. With the help of an additional ejector 2 a cone-shaped air flow 29 is formed, which is used to enclose and isolate the dust generation source from the environment, and with the help of the ejector 17 from the heat source 30, the dusty air 31 is sucked and separated from it. The dust suppressor operates as follows. Compressed air is fed at the beginning through the valve 8 hose 9 into the annular chamber 10 of the additional ejector 2, from where it expires at supersonic speed through annular slots b creating a vacuum on the internal surface of the receiving neck 4, sucking air from the atmosphere, which then enters the annular gap 11 between the walls of the cone 1 and the diffuser Z.V annular gap 11 using an annular nozzle 12 through the exit slit 16 from the annular channel. 13, through the hose 14 and the valve 15, water is supplied at a certain speed depending on the pressure in the line. In the annular gap 11, air-water is formed into the mixture, which moves with great speed at the exit of the diffuser 3. The air-water flow 29 has a certain inertia and moves by inertia towards the source of dust formation 30 in the form of a barrier to the distribution of dust. Then, an ejector 17 is put into operation. A valve 23 is turned on through a hose 24 and air is supplied to the annular chamber 25, from where it exhausts through a slit 21, forming a vacuum in the region of the receiving neck 19 and sucking in dusty air 31 from the dust generation source 30 inside the air outlet cone 29. Due to the oncoming movement of two streams inside the cone of the air-water flow 29, there is an intensive wetting of dust with water. The moistened dust together with the air enters the diffuser 18 of the ejector 17. The passage through the spiral channel of the diffuser 18, the dusty air is twisted. The solid particles in the air under the action of centrifugal forces are pressed against the walls of the diffuser 18; water droplets also contribute to this, moving along the spiral spiral channel of the diffuser. On the walls of the diffuser, a stream of water mixed with dust is formed, which moves to the opening with the nozzle 27. The wetted dust is directed through the nozzle 27 to the designated place. With the help of cranes 8, 15, 23 msec, to regulate the speeds of the sources and the amount of water to successfully conduct the process of dust suppression, depending on the intensity of the dust formation. DETAILED DESCRIPTION OF THE INVENTION A device for suppressing dust, comprising an ejector consisting of a diffuser, a composite receiving mouth, a perforated ring forming annular gaps with a receiving mouth, annular gaps adjustable by means of gaskets, a spiral screw partition installed inside the diffuser and a branch pipe for dust removal, co-valuable with diffuser, air inlet hoses and an alternate water supply, so that, in order to increase the efficiency of dust suppression by